: Applied Physics Letters , Journal of Aerosol Science , and Nature Communications .
Traditional inkjet printers use heat or vibration to push ink out. EHD uses to pull a tiny "Taylor cone" of fluid from a nozzle.
: Building 3D structures for tissue growth. Drug Delivery : Micro-patterning medication on patches. 3. Semiconductor Packaging
: His work on high-speed EHD jetting.
: Creating ultra-thin mesh for touchscreens. 2. Biomedical Engineering
: Printing silver or copper tracks on flexible plastics.
To dive deeper into Dr. Jung's specific contributions, look for:
: Allows for precise, additive manufacturing.
: Applied Physics Letters , Journal of Aerosol Science , and Nature Communications .
Traditional inkjet printers use heat or vibration to push ink out. EHD uses to pull a tiny "Taylor cone" of fluid from a nozzle.
: Building 3D structures for tissue growth. Drug Delivery : Micro-patterning medication on patches. 3. Semiconductor Packaging Jung_EHD
: His work on high-speed EHD jetting.
: Creating ultra-thin mesh for touchscreens. 2. Biomedical Engineering : Applied Physics Letters , Journal of Aerosol
: Printing silver or copper tracks on flexible plastics.
To dive deeper into Dr. Jung's specific contributions, look for: : Applied Physics Letters
: Allows for precise, additive manufacturing.